/* $OpenLDAP$ */ /* * Copyright 1998-2002 The OpenLDAP Foundation, All Rights Reserved. * COPYING RESTRICTIONS APPLY, see COPYRIGHT file */ /* * Copyright (c) 1996 Regents of the University of Michigan. * All rights reserved. * * Redistribution and use in source and binary forms are permitted * provided that this notice is preserved and that due credit is given * to the University of Michigan at Ann Arbor. The name of the University * may not be used to endorse or promote products derived from this * software without specific prior written permission. This software * is provided ``as is'' without express or implied warranty. */ /* * rq.c - routines used to manage the queue of replication entries. * An Rq (Replication queue) struct contains a linked list of Re * (Replication entry) structures. * * Routines wishing to access the replication queue should do so through * the Rq struct's member functions, e.g. rq->rq_gethead() and friends. * For example, Re structs should be added to the queue by calling * the rq_add() member function. * * Access to the queue is serialized by a mutex. Member functions which do * not do their own locking should only be called after locking the queue * using the rq_lock() member function. The queue should be unlocked with * the rq_unlock() member function. * * Note that some member functions handle their own locking internally. * Callers should not lock the queue before calling these functions. * See the comment block for each function below. * */ #include "portable.h" #include #include #include #include #include /* get ftruncate() */ #ifdef HAVE_SYS_TYPES_H #include #endif #ifdef HAVE_FCNTL_H #include #endif #include "slurp.h" #include "globals.h" /* * Lock the replication queue. */ static int Rq_lock( Rq *rq ) { return( ldap_pvt_thread_mutex_lock( &rq->rq_mutex )); } /* * Unlock the replication queue. */ static int Rq_unlock( Rq *rq ) { return( ldap_pvt_thread_mutex_unlock( &rq->rq_mutex )); } /* * Return the head of the queue. Callers should lock the queue before * calling this routine. */ static Re * Rq_gethead( Rq *rq ) { return( rq == NULL ? NULL : rq->rq_head ); } /* * Return the next item in the queue. Callers should lock the queue before * calling this routine. */ static Re * Rq_getnext( Re *re ) { if ( re == NULL ) { return NULL; } else { return( re->re_getnext( re )); } } /* * Delete the item at the head of the list. The queue should be locked * by the caller before calling this routine. */ static int Rq_delhead( Rq *rq ) { Re *savedhead; int rc; if ( rq == NULL ) { return( -1 ); } savedhead = rq->rq_head; if ( savedhead == NULL ) { return( 0 ); } if ( savedhead->re_getrefcnt( savedhead ) != 0 ) { #ifdef NEW_LOGGING LDAP_LOG (( "rq", LDAP_LEVEL_WARNING, "Rq_delhead: " "Warning: attempt to delete when refcnt != 0\n" )); #else Debug( LDAP_DEBUG_ANY, "Warning: attempt to delete when refcnt != 0\n", 0, 0, 0 ); #endif return( -1 ); } rq->rq_head = rq->rq_head->re_getnext( rq->rq_head ); rc = savedhead->re_free( savedhead ); rq->rq_nre--; /* decrement count of Re's in queue */ return( rc ); } /* * Add an entry to the tail of the replication queue. Locking is handled * internally. When items are added to the queue, this routine wakes * up any threads which are waiting for more work by signaling on the * rq->rq_more condition variable. */ static int Rq_add( Rq *rq, char *buf ) { Re *re; int wasempty = 0; /* Lock the queue */ rq->rq_lock( rq ); /* Create a new Re */ if ( Re_init( &re ) < 0 ) { rq->rq_unlock( rq ); return -1; } /* parse buf and fill in the re struct */ if ( re->re_parse( re, buf ) < 0 ) { re->re_free( re ); rq->rq_unlock( rq ); return -1; } /* Insert into queue */ if ( rq->rq_head == NULL ) { rq->rq_head = re; rq->rq_tail = re; wasempty = 1; } else { rq->rq_tail->re_next = re; } /* set the sequence number */ re->re_seq = 0; if ( !wasempty && ( rq->rq_tail->re_timestamp == re->re_timestamp )) { /* * Our new re has the same timestamp as the tail's timestamp. * Increment the seq number in the tail and use it as our seq number. */ re->re_seq = rq->rq_tail->re_seq + 1; } rq->rq_tail = re; /* Increment count of items in queue */ rq->rq_nre++; /* wake up any threads waiting for more work */ ldap_pvt_thread_cond_broadcast( &rq->rq_more ); /* ... and unlock the queue */ rq->rq_unlock( rq ); return 0; } /* * Garbage-collect the replication queue. Locking is handled internally. */ static void Rq_gc( Rq *rq ) { if ( rq == NULL ) { #ifdef NEW_LOGGING LDAP_LOG (( "rq", LDAP_LEVEL_DETAIL1, "Rq_gc: rq is NULL!\n" )); #else Debug( LDAP_DEBUG_ANY, "Rq_gc: rq is NULL!\n", 0, 0, 0 ); #endif return; } rq->rq_lock( rq ); while (( rq->rq_head != NULL ) && ( rq->rq_head->re_getrefcnt( rq->rq_head ) == 0 )) { rq->rq_delhead( rq ); rq->rq_ndel++; /* increment count of deleted entries */ } rq->rq_unlock( rq ); return; } /* * For debugging: dump the contents of the replication queue to a file. * Locking is handled internally. */ static void Rq_dump( Rq *rq ) { Re *re; FILE *fp; int tmpfd; if ( rq == NULL ) { #ifdef NEW_LOGGING LDAP_LOG (( "rq", LDAP_LEVEL_ARGS, "Rq_dump: rq is NULL!\n" )); #else Debug( LDAP_DEBUG_ANY, "Rq_dump: rq is NULL!\n", 0, 0, 0 ); #endif return; } if (unlink(SLURPD_DUMPFILE) == -1 && errno != ENOENT) { #ifdef NEW_LOGGING LDAP_LOG (( "rq", LDAP_LEVEL_ERR, "Rq_dump: " "\"%s\" exists, cannot unlink\n", SLURPD_DUMPFILE )); #else Debug( LDAP_DEBUG_ANY, "Rq_dump: \"%s\" exists, and cannot unlink\n", SLURPD_DUMPFILE, 0, 0 ); #endif return; } if (( tmpfd = open(SLURPD_DUMPFILE, O_CREAT|O_RDWR|O_EXCL, 0600)) == -1) { #ifdef NEW_LOGGING LDAP_LOG (( "rq", LDAP_LEVEL_ERR, "Rq_dump: " "cannot open \"%s\" for write\n", SLURPD_DUMPFILE )); #else Debug( LDAP_DEBUG_ANY, "Rq_dump: cannot open \"%s\" for write\n", SLURPD_DUMPFILE, 0, 0 ); #endif return; } if (( fp = fdopen( tmpfd, "w" )) == NULL ) { #ifdef NEW_LOGGING LDAP_LOG (( "rq", LDAP_LEVEL_ERR, "Rq_dump: " "cannot fdopen \"%s\" for write\n", SLURPD_DUMPFILE )); #else Debug( LDAP_DEBUG_ANY, "Rq_dump: cannot fdopen \"%s\" for write\n", SLURPD_DUMPFILE, 0, 0 ); #endif return; } rq->rq_lock( rq ); for ( re = rq->rq_gethead( rq ); re != NULL; re = rq->rq_getnext( re )) { re->re_dump( re, fp ); } rq->rq_unlock( rq ); fclose( fp ); return; } /* * Write the contents of a replication queue to a file. Returns zero if * successful, -1 if not. Handles queue locking internally. Callers should * provide an open file pointer, which should refer to a locked file. */ static int Rq_write( Rq *rq, FILE *fp ) { Re *re; time_t now; if ( rq == NULL ) { return -1; } #ifdef NEW_LOGGING LDAP_LOG (( "rq", LDAP_LEVEL_ENTRY, "Rq_write: " "re-write on-disk replication log\n" )); #else Debug( LDAP_DEBUG_ARGS, "re-write on-disk replication log\n", 0, 0, 0 ); #endif #ifndef SEEK_SET #define SEEK_SET 0 #endif fseek( fp, 0L, SEEK_SET ); /* Go to beginning of file */ rq->rq_lock( rq ); for ( re = rq->rq_gethead( rq ); re != NULL; re = rq->rq_getnext( re )) { if ( re->re_write( NULL, re, fp ) < 0 ) { fflush( fp ); rq->rq_unlock( rq ); return -1; } } fflush( fp ); sglob->srpos = ftell( fp ); /* update replog file position */ /* and truncate to correct len */ if ( ftruncate( fileno( fp ), sglob->srpos ) < 0 ) { #ifdef NEW_LOGGING LDAP_LOG (( "rq", LDAP_LEVEL_ERR, "Rq_write: " "Error truncating replication log: %s\n", sys_errlist[ errno ] )); #else Debug( LDAP_DEBUG_ANY, "Error truncating replication log: %s\n", sys_errlist[ errno ], 0, 0 ); #endif } rq->rq_ndel = 0; /* reset count of deleted re's */ time( &now ); rq->rq_lasttrim = now; /* reset last trim time */ rq->rq_unlock( rq ); return 0; } /* * Check to see if the private slurpd replication log needs trimming. * The current criteria are: * - The last trim was more than 5 minutes ago, *and* * - We've finished with at least 50 replication log entries since the * last time we re-wrote the replication log. * * Return 1 if replogfile should be trimmed, 0 if not. * Any different policy should be implemented by replacing this function. */ static int Rq_needtrim( Rq *rq ) { int rc = 0; time_t now; if ( rq == NULL ) { return 0; } rq->rq_lock( rq ); time( &now ); if ( now > ( rq->rq_lasttrim + TRIMCHECK_INTERVAL )) { rc = ( rq->rq_ndel >= 50 ); } else { rc = 0; } rq->rq_unlock( rq ); return rc; } /* * Return counts of Re structs in the queue. */ static int Rq_getcount( Rq *rq, int type ) { int count = 0; Re *re; if ( rq == NULL ) { return 0; } rq->rq_lock( rq ); if ( type == RQ_COUNT_ALL ) { count = rq->rq_nre; } else { for ( re = rq->rq_gethead( rq ); re != NULL; re = rq->rq_getnext( re )) { if ( type == RQ_COUNT_NZRC ) { if ( re->re_getrefcnt( re ) > 0 ) { count++; } } } } rq->rq_unlock( rq ); return count; } /* * Allocate and initialize an Rq object. */ int Rq_init( Rq **rq ) { /* Instantiate the struct */ (*rq) = (Rq *) malloc( sizeof( Rq )); if ( *rq == NULL ) { return -1; } /* Fill in all the function pointers */ (*rq)->rq_gethead = Rq_gethead; (*rq)->rq_getnext = Rq_getnext; (*rq)->rq_delhead = Rq_delhead; (*rq)->rq_add = Rq_add; (*rq)->rq_gc = Rq_gc; (*rq)->rq_lock = Rq_lock; (*rq)->rq_unlock = Rq_unlock; (*rq)->rq_dump = Rq_dump; (*rq)->rq_needtrim = Rq_needtrim; (*rq)->rq_write = Rq_write; (*rq)->rq_getcount = Rq_getcount; /* Initialize private data */ ldap_pvt_thread_mutex_init( &((*rq)->rq_mutex) ); ldap_pvt_thread_cond_init( &((*rq)->rq_more) ); (*rq)->rq_head = NULL; (*rq)->rq_tail = NULL; (*rq)->rq_nre = 0; (*rq)->rq_ndel = 0; (*rq)->rq_lasttrim = (time_t) 0L; return 0; }